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LeafOS / LeafOS-Project / android_frameworks_native / 21a9de5866d493e391afdaaad11633263345db73 / . / services / inputflinger / PointerChoreographer.cpp
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/*
* Copyright 2023 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#define LOG_TAG "PointerChoreographer"
#include <android-base/logging.h>
#include <input/PrintTools.h>
#include "PointerChoreographer.h"
#define INDENT " "
namespace android {
namespace {
bool isFromMouse(const NotifyMotionArgs& args) {
return isFromSource(args.source, AINPUT_SOURCE_MOUSE) &&
args.pointerProperties[0].toolType == ToolType::MOUSE;
}
bool isFromTouchpad(const NotifyMotionArgs& args) {
return isFromSource(args.source, AINPUT_SOURCE_MOUSE) &&
args.pointerProperties[0].toolType == ToolType::FINGER;
}
bool isFromDrawingTablet(const NotifyMotionArgs& args) {
return isFromSource(args.source, AINPUT_SOURCE_MOUSE | AINPUT_SOURCE_STYLUS) &&
isStylusToolType(args.pointerProperties[0].toolType);
}
bool isHoverAction(int32_t action) {
return action == AMOTION_EVENT_ACTION_HOVER_ENTER ||
action == AMOTION_EVENT_ACTION_HOVER_MOVE || action == AMOTION_EVENT_ACTION_HOVER_EXIT;
}
bool isStylusHoverEvent(const NotifyMotionArgs& args) {
return isStylusEvent(args.source, args.pointerProperties) && isHoverAction(args.action);
}
bool isMouseOrTouchpad(uint32_t sources) {
// Check if this is a mouse or touchpad, but not a drawing tablet.
return isFromSource(sources, AINPUT_SOURCE_MOUSE_RELATIVE) ||
(isFromSource(sources, AINPUT_SOURCE_MOUSE) &&
!isFromSource(sources, AINPUT_SOURCE_STYLUS));
}
inline void notifyPointerDisplayChange(std::optional<std::tuple<int32_t, FloatPoint>> change,
PointerChoreographerPolicyInterface& policy) {
if (!change) {
return;
}
const auto& [displayId, cursorPosition] = *change;
policy.notifyPointerDisplayIdChanged(displayId, cursorPosition);
}
void setIconForController(const std::variant<std::unique_ptr<SpriteIcon>, PointerIconStyle>& icon,
PointerControllerInterface& controller) {
if (std::holds_alternative<std::unique_ptr<SpriteIcon>>(icon)) {
if (std::get<std::unique_ptr<SpriteIcon>>(icon) == nullptr) {
LOG(FATAL) << "SpriteIcon should not be null";
}
controller.setCustomPointerIcon(*std::get<std::unique_ptr<SpriteIcon>>(icon));
} else {
controller.updatePointerIcon(std::get<PointerIconStyle>(icon));
}
}
} // namespace
// --- PointerChoreographer ---
PointerChoreographer::PointerChoreographer(InputListenerInterface& listener,
PointerChoreographerPolicyInterface& policy)
: mTouchControllerConstructor([this]() {
return mPolicy.createPointerController(
PointerControllerInterface::ControllerType::TOUCH);
}),
mNextListener(listener),
mPolicy(policy),
mDefaultMouseDisplayId(ADISPLAY_ID_DEFAULT),
mNotifiedPointerDisplayId(ADISPLAY_ID_NONE),
mShowTouchesEnabled(false),
mStylusPointerIconEnabled(false) {}
void PointerChoreographer::notifyInputDevicesChanged(const NotifyInputDevicesChangedArgs& args) {
PointerDisplayChange pointerDisplayChange;
{ // acquire lock
std::scoped_lock _l(mLock);
mInputDeviceInfos = args.inputDeviceInfos;
pointerDisplayChange = updatePointerControllersLocked();
} // release lock
notifyPointerDisplayChange(pointerDisplayChange, mPolicy);
mNextListener.notify(args);
}
void PointerChoreographer::notifyConfigurationChanged(const NotifyConfigurationChangedArgs& args) {
mNextListener.notify(args);
}
void PointerChoreographer::notifyKey(const NotifyKeyArgs& args) {
mNextListener.notify(args);
}
void PointerChoreographer::notifyMotion(const NotifyMotionArgs& args) {
NotifyMotionArgs newArgs = processMotion(args);
mNextListener.notify(newArgs);
}
NotifyMotionArgs PointerChoreographer::processMotion(const NotifyMotionArgs& args) {
std::scoped_lock _l(mLock);
if (isFromMouse(args)) {
return processMouseEventLocked(args);
} else if (isFromTouchpad(args)) {
return processTouchpadEventLocked(args);
} else if (isFromDrawingTablet(args)) {
processDrawingTabletEventLocked(args);
} else if (mStylusPointerIconEnabled && isStylusHoverEvent(args)) {
processStylusHoverEventLocked(args);
} else if (isFromSource(args.source, AINPUT_SOURCE_TOUCHSCREEN)) {
processTouchscreenAndStylusEventLocked(args);
}
return args;
}
NotifyMotionArgs PointerChoreographer::processMouseEventLocked(const NotifyMotionArgs& args) {
if (args.getPointerCount() != 1) {
LOG(FATAL) << "Only mouse events with a single pointer are currently supported: "
<< args.dump();
}
auto [displayId, pc] = ensureMouseControllerLocked(args.displayId);
const float deltaX = args.pointerCoords[0].getAxisValue(AMOTION_EVENT_AXIS_RELATIVE_X);
const float deltaY = args.pointerCoords[0].getAxisValue(AMOTION_EVENT_AXIS_RELATIVE_Y);
pc.move(deltaX, deltaY);
if (canUnfadeOnDisplay(displayId)) {
pc.unfade(PointerControllerInterface::Transition::IMMEDIATE);
}
const auto [x, y] = pc.getPosition();
NotifyMotionArgs newArgs(args);
newArgs.pointerCoords[0].setAxisValue(AMOTION_EVENT_AXIS_X, x);
newArgs.pointerCoords[0].setAxisValue(AMOTION_EVENT_AXIS_Y, y);
newArgs.xCursorPosition = x;
newArgs.yCursorPosition = y;
newArgs.displayId = displayId;
return newArgs;
}
NotifyMotionArgs PointerChoreographer::processTouchpadEventLocked(const NotifyMotionArgs& args) {
auto [displayId, pc] = ensureMouseControllerLocked(args.displayId);
NotifyMotionArgs newArgs(args);
newArgs.displayId = displayId;
if (args.getPointerCount() == 1 && args.classification == MotionClassification::NONE) {
// This is a movement of the mouse pointer.
const float deltaX = args.pointerCoords[0].getAxisValue(AMOTION_EVENT_AXIS_RELATIVE_X);
const float deltaY = args.pointerCoords[0].getAxisValue(AMOTION_EVENT_AXIS_RELATIVE_Y);
pc.move(deltaX, deltaY);
if (canUnfadeOnDisplay(displayId)) {
pc.unfade(PointerControllerInterface::Transition::IMMEDIATE);
}
const auto [x, y] = pc.getPosition();
newArgs.pointerCoords[0].setAxisValue(AMOTION_EVENT_AXIS_X, x);
newArgs.pointerCoords[0].setAxisValue(AMOTION_EVENT_AXIS_Y, y);
newArgs.xCursorPosition = x;
newArgs.yCursorPosition = y;
} else {
// This is a trackpad gesture with fake finger(s) that should not move the mouse pointer.
if (canUnfadeOnDisplay(displayId)) {
pc.unfade(PointerControllerInterface::Transition::IMMEDIATE);
}
const auto [x, y] = pc.getPosition();
for (uint32_t i = 0; i < newArgs.getPointerCount(); i++) {
newArgs.pointerCoords[i].setAxisValue(AMOTION_EVENT_AXIS_X,
args.pointerCoords[i].getX() + x);
newArgs.pointerCoords[i].setAxisValue(AMOTION_EVENT_AXIS_Y,
args.pointerCoords[i].getY() + y);
}
newArgs.xCursorPosition = x;
newArgs.yCursorPosition = y;
}
return newArgs;
}
void PointerChoreographer::processDrawingTabletEventLocked(const android::NotifyMotionArgs& args) {
if (args.displayId == ADISPLAY_ID_NONE) {
return;
}
if (args.getPointerCount() != 1) {
LOG(WARNING) << "Only drawing tablet events with a single pointer are currently supported: "
<< args.dump();
}
// Use a mouse pointer controller for drawing tablets, or create one if it doesn't exist.
auto [it, _] = mDrawingTabletPointersByDevice.try_emplace(args.deviceId,
getMouseControllerConstructor(
args.displayId));
PointerControllerInterface& pc = *it->second;
const float x = args.pointerCoords[0].getAxisValue(AMOTION_EVENT_AXIS_X);
const float y = args.pointerCoords[0].getAxisValue(AMOTION_EVENT_AXIS_Y);
pc.setPosition(x, y);
if (args.action == AMOTION_EVENT_ACTION_HOVER_EXIT) {
// TODO(b/315815559): Do not fade and reset the icon if the hover exit will be followed
// immediately by a DOWN event.
pc.fade(PointerControllerInterface::Transition::IMMEDIATE);
pc.updatePointerIcon(PointerIconStyle::TYPE_NOT_SPECIFIED);
} else if (canUnfadeOnDisplay(args.displayId)) {
pc.unfade(PointerControllerInterface::Transition::IMMEDIATE);
}
}
/**
* When screen is touched, fade the mouse pointer on that display. We only call fade for
* ACTION_DOWN events.This would allow both mouse and touch to be used at the same time if the
* mouse device keeps moving and unfades the cursor.
* For touch events, we do not need to populate the cursor position.
*/
void PointerChoreographer::processTouchscreenAndStylusEventLocked(const NotifyMotionArgs& args) {
if (args.displayId == ADISPLAY_ID_NONE) {
return;
}
if (const auto it = mMousePointersByDisplay.find(args.displayId);
it != mMousePointersByDisplay.end() && args.action == AMOTION_EVENT_ACTION_DOWN) {
it->second->fade(PointerControllerInterface::Transition::GRADUAL);
}
if (!mShowTouchesEnabled) {
return;
}
// Get the touch pointer controller for the device, or create one if it doesn't exist.
auto [it, _] = mTouchPointersByDevice.try_emplace(args.deviceId, mTouchControllerConstructor);
PointerControllerInterface& pc = *it->second;
const PointerCoords* coords = args.pointerCoords.data();
const int32_t maskedAction = MotionEvent::getActionMasked(args.action);
const uint8_t actionIndex = MotionEvent::getActionIndex(args.action);
std::array<uint32_t, MAX_POINTER_ID + 1> idToIndex;
BitSet32 idBits;
if (maskedAction != AMOTION_EVENT_ACTION_UP && maskedAction != AMOTION_EVENT_ACTION_CANCEL) {
for (size_t i = 0; i < args.getPointerCount(); i++) {
if (maskedAction == AMOTION_EVENT_ACTION_POINTER_UP && actionIndex == i) {
continue;
}
uint32_t id = args.pointerProperties[i].id;
idToIndex[id] = i;
idBits.markBit(id);
}
}
// The PointerController already handles setting spots per-display, so
// we do not need to manually manage display changes for touch spots for now.
pc.setSpots(coords, idToIndex.cbegin(), idBits, args.displayId);
}
void PointerChoreographer::processStylusHoverEventLocked(const NotifyMotionArgs& args) {
if (args.displayId == ADISPLAY_ID_NONE) {
return;
}
if (args.getPointerCount() != 1) {
LOG(WARNING) << "Only stylus hover events with a single pointer are currently supported: "
<< args.dump();
}
// Get the stylus pointer controller for the device, or create one if it doesn't exist.
auto [it, _] =
mStylusPointersByDevice.try_emplace(args.deviceId,
getStylusControllerConstructor(args.displayId));
PointerControllerInterface& pc = *it->second;
const float x = args.pointerCoords[0].getAxisValue(AMOTION_EVENT_AXIS_X);
const float y = args.pointerCoords[0].getAxisValue(AMOTION_EVENT_AXIS_Y);
pc.setPosition(x, y);
if (args.action == AMOTION_EVENT_ACTION_HOVER_EXIT) {
// TODO(b/315815559): Do not fade and reset the icon if the hover exit will be followed
// immediately by a DOWN event.
pc.fade(PointerControllerInterface::Transition::IMMEDIATE);
pc.updatePointerIcon(PointerIconStyle::TYPE_NOT_SPECIFIED);
} else if (canUnfadeOnDisplay(args.displayId)) {
pc.unfade(PointerControllerInterface::Transition::IMMEDIATE);
}
}
void PointerChoreographer::notifySwitch(const NotifySwitchArgs& args) {
mNextListener.notify(args);
}
void PointerChoreographer::notifySensor(const NotifySensorArgs& args) {
mNextListener.notify(args);
}
void PointerChoreographer::notifyVibratorState(const NotifyVibratorStateArgs& args) {
mNextListener.notify(args);
}
void PointerChoreographer::notifyDeviceReset(const NotifyDeviceResetArgs& args) {
processDeviceReset(args);
mNextListener.notify(args);
}
void PointerChoreographer::processDeviceReset(const NotifyDeviceResetArgs& args) {
std::scoped_lock _l(mLock);
mTouchPointersByDevice.erase(args.deviceId);
mStylusPointersByDevice.erase(args.deviceId);
mDrawingTabletPointersByDevice.erase(args.deviceId);
}
void PointerChoreographer::notifyPointerCaptureChanged(
const NotifyPointerCaptureChangedArgs& args) {
if (args.request.enable) {
std::scoped_lock _l(mLock);
for (const auto& [_, mousePointerController] : mMousePointersByDisplay) {
mousePointerController->fade(PointerControllerInterface::Transition::IMMEDIATE);
}
}
mNextListener.notify(args);
}
void PointerChoreographer::dump(std::string& dump) {
std::scoped_lock _l(mLock);
dump += "PointerChoreographer:\n";
dump += StringPrintf("show touches: %s\n", mShowTouchesEnabled ? "true" : "false");
dump += StringPrintf("stylus pointer icon enabled: %s\n",
mStylusPointerIconEnabled ? "true" : "false");
dump += INDENT "MousePointerControllers:\n";
for (const auto& [displayId, mousePointerController] : mMousePointersByDisplay) {
std::string pointerControllerDump = addLinePrefix(mousePointerController->dump(), INDENT);
dump += INDENT + std::to_string(displayId) + " : " + pointerControllerDump;
}
dump += INDENT "TouchPointerControllers:\n";
for (const auto& [deviceId, touchPointerController] : mTouchPointersByDevice) {
std::string pointerControllerDump = addLinePrefix(touchPointerController->dump(), INDENT);
dump += INDENT + std::to_string(deviceId) + " : " + pointerControllerDump;
}
dump += INDENT "StylusPointerControllers:\n";
for (const auto& [deviceId, stylusPointerController] : mStylusPointersByDevice) {
std::string pointerControllerDump = addLinePrefix(stylusPointerController->dump(), INDENT);
dump += INDENT + std::to_string(deviceId) + " : " + pointerControllerDump;
}
dump += INDENT "DrawingTabletControllers:\n";
for (const auto& [deviceId, drawingTabletController] : mDrawingTabletPointersByDevice) {
std::string pointerControllerDump = addLinePrefix(drawingTabletController->dump(), INDENT);
dump += INDENT + std::to_string(deviceId) + " : " + pointerControllerDump;
}
dump += "\n";
}
const DisplayViewport* PointerChoreographer::findViewportByIdLocked(int32_t displayId) const {
for (auto& viewport : mViewports) {
if (viewport.displayId == displayId) {
return &viewport;
}
}
return nullptr;
}
int32_t PointerChoreographer::getTargetMouseDisplayLocked(int32_t associatedDisplayId) const {
return associatedDisplayId == ADISPLAY_ID_NONE ? mDefaultMouseDisplayId : associatedDisplayId;
}
std::pair<int32_t, PointerControllerInterface&> PointerChoreographer::ensureMouseControllerLocked(
int32_t associatedDisplayId) {
const int32_t displayId = getTargetMouseDisplayLocked(associatedDisplayId);
auto it = mMousePointersByDisplay.find(displayId);
LOG_ALWAYS_FATAL_IF(it == mMousePointersByDisplay.end(),
"There is no mouse controller created for display %d", displayId);
return {displayId, *it->second};
}
InputDeviceInfo* PointerChoreographer::findInputDeviceLocked(DeviceId deviceId) {
auto it = std::find_if(mInputDeviceInfos.begin(), mInputDeviceInfos.end(),
[deviceId](const auto& info) { return info.getId() == deviceId; });
return it != mInputDeviceInfos.end() ? &(*it) : nullptr;
}
bool PointerChoreographer::canUnfadeOnDisplay(int32_t displayId) {
return mDisplaysWithPointersHidden.find(displayId) == mDisplaysWithPointersHidden.end();
}
PointerChoreographer::PointerDisplayChange PointerChoreographer::updatePointerControllersLocked() {
std::set<int32_t /*displayId*/> mouseDisplaysToKeep;
std::set<DeviceId> touchDevicesToKeep;
std::set<DeviceId> stylusDevicesToKeep;
std::set<DeviceId> drawingTabletDevicesToKeep;
// Mark the displayIds or deviceIds of PointerControllers currently needed, and create
// new PointerControllers if necessary.
for (const auto& info : mInputDeviceInfos) {
const uint32_t sources = info.getSources();
if (isMouseOrTouchpad(sources)) {
const int32_t displayId = getTargetMouseDisplayLocked(info.getAssociatedDisplayId());
mouseDisplaysToKeep.insert(displayId);
// For mice, show the cursor immediately when the device is first connected or
// when it moves to a new display.
auto [mousePointerIt, isNewMousePointer] =
mMousePointersByDisplay.try_emplace(displayId,
getMouseControllerConstructor(displayId));
auto [_, isNewMouseDevice] = mMouseDevices.emplace(info.getId());
if ((isNewMouseDevice || isNewMousePointer) && canUnfadeOnDisplay(displayId)) {
mousePointerIt->second->unfade(PointerControllerInterface::Transition::IMMEDIATE);
}
}
if (isFromSource(sources, AINPUT_SOURCE_TOUCHSCREEN) && mShowTouchesEnabled &&
info.getAssociatedDisplayId() != ADISPLAY_ID_NONE) {
touchDevicesToKeep.insert(info.getId());
}
if (isFromSource(sources, AINPUT_SOURCE_STYLUS) && mStylusPointerIconEnabled &&
info.getAssociatedDisplayId() != ADISPLAY_ID_NONE) {
stylusDevicesToKeep.insert(info.getId());
}
if (isFromSource(sources, AINPUT_SOURCE_STYLUS | AINPUT_SOURCE_MOUSE) &&
info.getAssociatedDisplayId() != ADISPLAY_ID_NONE) {
drawingTabletDevicesToKeep.insert(info.getId());
}
}
// Remove PointerControllers no longer needed.
std::erase_if(mMousePointersByDisplay, [&mouseDisplaysToKeep](const auto& pair) {
return mouseDisplaysToKeep.find(pair.first) == mouseDisplaysToKeep.end();
});
std::erase_if(mTouchPointersByDevice, [&touchDevicesToKeep](const auto& pair) {
return touchDevicesToKeep.find(pair.first) == touchDevicesToKeep.end();
});
std::erase_if(mStylusPointersByDevice, [&stylusDevicesToKeep](const auto& pair) {
return stylusDevicesToKeep.find(pair.first) == stylusDevicesToKeep.end();
});
std::erase_if(mDrawingTabletPointersByDevice, [&drawingTabletDevicesToKeep](const auto& pair) {
return drawingTabletDevicesToKeep.find(pair.first) == drawingTabletDevicesToKeep.end();
});
std::erase_if(mMouseDevices, [&](DeviceId id) REQUIRES(mLock) {
return std::find_if(mInputDeviceInfos.begin(), mInputDeviceInfos.end(),
[id](const auto& info) { return info.getId() == id; }) ==
mInputDeviceInfos.end();
});
// Check if we need to notify the policy if there's a change on the pointer display ID.
return calculatePointerDisplayChangeToNotify();
}
PointerChoreographer::PointerDisplayChange
PointerChoreographer::calculatePointerDisplayChangeToNotify() {
int32_t displayIdToNotify = ADISPLAY_ID_NONE;
FloatPoint cursorPosition = {0, 0};
if (const auto it = mMousePointersByDisplay.find(mDefaultMouseDisplayId);
it != mMousePointersByDisplay.end()) {
const auto& pointerController = it->second;
// Use the displayId from the pointerController, because it accurately reflects whether
// the viewport has been added for that display. Otherwise, we would have to check if
// the viewport exists separately.
displayIdToNotify = pointerController->getDisplayId();
cursorPosition = pointerController->getPosition();
}
if (mNotifiedPointerDisplayId == displayIdToNotify) {
return {};
}
mNotifiedPointerDisplayId = displayIdToNotify;
return {{displayIdToNotify, cursorPosition}};
}
void PointerChoreographer::setDefaultMouseDisplayId(int32_t displayId) {
PointerDisplayChange pointerDisplayChange;
{ // acquire lock
std::scoped_lock _l(mLock);
mDefaultMouseDisplayId = displayId;
pointerDisplayChange = updatePointerControllersLocked();
} // release lock
notifyPointerDisplayChange(pointerDisplayChange, mPolicy);
}
void PointerChoreographer::setDisplayViewports(const std::vector<DisplayViewport>& viewports) {
PointerDisplayChange pointerDisplayChange;
{ // acquire lock
std::scoped_lock _l(mLock);
for (const auto& viewport : viewports) {
const int32_t displayId = viewport.displayId;
if (const auto it = mMousePointersByDisplay.find(displayId);
it != mMousePointersByDisplay.end()) {
it->second->setDisplayViewport(viewport);
}
for (const auto& [deviceId, stylusPointerController] : mStylusPointersByDevice) {
const InputDeviceInfo* info = findInputDeviceLocked(deviceId);
if (info && info->getAssociatedDisplayId() == displayId) {
stylusPointerController->setDisplayViewport(viewport);
}
}
for (const auto& [deviceId, drawingTabletController] : mDrawingTabletPointersByDevice) {
const InputDeviceInfo* info = findInputDeviceLocked(deviceId);
if (info && info->getAssociatedDisplayId() == displayId) {
drawingTabletController->setDisplayViewport(viewport);
}
}
}
mViewports = viewports;
pointerDisplayChange = calculatePointerDisplayChangeToNotify();
} // release lock
notifyPointerDisplayChange(pointerDisplayChange, mPolicy);
}
std::optional<DisplayViewport> PointerChoreographer::getViewportForPointerDevice(
int32_t associatedDisplayId) {
std::scoped_lock _l(mLock);
const int32_t resolvedDisplayId = getTargetMouseDisplayLocked(associatedDisplayId);
if (const auto viewport = findViewportByIdLocked(resolvedDisplayId); viewport) {
return *viewport;
}
return std::nullopt;
}
FloatPoint PointerChoreographer::getMouseCursorPosition(int32_t displayId) {
std::scoped_lock _l(mLock);
const int32_t resolvedDisplayId = getTargetMouseDisplayLocked(displayId);
if (auto it = mMousePointersByDisplay.find(resolvedDisplayId);
it != mMousePointersByDisplay.end()) {
return it->second->getPosition();
}
return {AMOTION_EVENT_INVALID_CURSOR_POSITION, AMOTION_EVENT_INVALID_CURSOR_POSITION};
}
void PointerChoreographer::setShowTouchesEnabled(bool enabled) {
PointerDisplayChange pointerDisplayChange;
{ // acquire lock
std::scoped_lock _l(mLock);
if (mShowTouchesEnabled == enabled) {
return;
}
mShowTouchesEnabled = enabled;
pointerDisplayChange = updatePointerControllersLocked();
} // release lock
notifyPointerDisplayChange(pointerDisplayChange, mPolicy);
}
void PointerChoreographer::setStylusPointerIconEnabled(bool enabled) {
PointerDisplayChange pointerDisplayChange;
{ // acquire lock
std::scoped_lock _l(mLock);
if (mStylusPointerIconEnabled == enabled) {
return;
}
mStylusPointerIconEnabled = enabled;
pointerDisplayChange = updatePointerControllersLocked();
} // release lock
notifyPointerDisplayChange(pointerDisplayChange, mPolicy);
}
bool PointerChoreographer::setPointerIcon(
std::variant<std::unique_ptr<SpriteIcon>, PointerIconStyle> icon, int32_t displayId,
DeviceId deviceId) {
std::scoped_lock _l(mLock);
if (deviceId < 0) {
LOG(WARNING) << "Invalid device id " << deviceId << ". Cannot set pointer icon.";
return false;
}
const InputDeviceInfo* info = findInputDeviceLocked(deviceId);
if (!info) {
LOG(WARNING) << "No input device info found for id " << deviceId
<< ". Cannot set pointer icon.";
return false;
}
const uint32_t sources = info->getSources();
if (isFromSource(sources, AINPUT_SOURCE_STYLUS | AINPUT_SOURCE_MOUSE)) {
auto it = mDrawingTabletPointersByDevice.find(deviceId);
if (it != mDrawingTabletPointersByDevice.end()) {
setIconForController(icon, *it->second);
return true;
}
}
if (isFromSource(sources, AINPUT_SOURCE_STYLUS)) {
auto it = mStylusPointersByDevice.find(deviceId);
if (it != mStylusPointersByDevice.end()) {
setIconForController(icon, *it->second);
return true;
}
}
if (isFromSource(sources, AINPUT_SOURCE_MOUSE)) {
auto it = mMousePointersByDisplay.find(displayId);
if (it != mMousePointersByDisplay.end()) {
setIconForController(icon, *it->second);
return true;
} else {
LOG(WARNING) << "No mouse pointer controller found for display " << displayId
<< ", device " << deviceId << ".";
return false;
}
}
LOG(WARNING) << "Cannot set pointer icon for display " << displayId << ", device " << deviceId
<< ".";
return false;
}
void PointerChoreographer::setPointerIconVisibility(int32_t displayId, bool visible) {
std::scoped_lock lock(mLock);
if (visible) {
mDisplaysWithPointersHidden.erase(displayId);
// We do not unfade the icons here, because we don't know when the last event happened.
return;
}
mDisplaysWithPointersHidden.emplace(displayId);
// Hide any icons that are currently visible on the display.
if (auto it = mMousePointersByDisplay.find(displayId); it != mMousePointersByDisplay.end()) {
const auto& [_, controller] = *it;
controller->fade(PointerControllerInterface::Transition::IMMEDIATE);
}
for (const auto& [_, controller] : mStylusPointersByDevice) {
if (controller->getDisplayId() == displayId) {
controller->fade(PointerControllerInterface::Transition::IMMEDIATE);
}
}
}
PointerChoreographer::ControllerConstructor PointerChoreographer::getMouseControllerConstructor(
int32_t displayId) {
std::function<std::shared_ptr<PointerControllerInterface>()> ctor =
[this, displayId]() REQUIRES(mLock) {
auto pc = mPolicy.createPointerController(
PointerControllerInterface::ControllerType::MOUSE);
if (const auto viewport = findViewportByIdLocked(displayId); viewport) {
pc->setDisplayViewport(*viewport);
}
return pc;
};
return ConstructorDelegate(std::move(ctor));
}
PointerChoreographer::ControllerConstructor PointerChoreographer::getStylusControllerConstructor(
int32_t displayId) {
std::function<std::shared_ptr<PointerControllerInterface>()> ctor =
[this, displayId]() REQUIRES(mLock) {
auto pc = mPolicy.createPointerController(
PointerControllerInterface::ControllerType::STYLUS);
if (const auto viewport = findViewportByIdLocked(displayId); viewport) {
pc->setDisplayViewport(*viewport);
}
return pc;
};
return ConstructorDelegate(std::move(ctor));
}
} // namespace android